Method and device for tension levelling a cold-rolled strip and regulating the degree of levelling

ABSTRACT

The invention relates to a method for tension levelling a cold-rolled strip, whereby the strip passes through a series of brake rolls and a series of traction rolls and in the course of its extension is subjected to traction between the two series of rolls. The strip is bent under traction in a series of high-traction rolls, located between the brake roll and the traction roll series, in order to increase the degree of levelling. To achieve this, the series of high-traction rolls between the brake and the traction rolls has at least two traction rolls for generating the strip traction and bending operation.

[0001] The invention relates to a method and a device for tension leveling of cold rolled strip whereby the strip passes through a brake roll set and a tension roll set and between both roll sets in the course of being stretched is subjected to a leveling tension. The invention also relates to a control of the tension leveling [degree of stretch].

[0002] From EP 0 393 301 B2, a method of continuously straightening metal strip with a strip thickness between 0.05 and 0.5 mm under continuous stretching tension is described, especially for strip of steel, aluminum or like metals. There the strip to be subjected to tension leveling passes through a brake roll set [series of brake rolls] and a tension roll set [series of tension rolls] and between the two roll sets in the course of stretching in the plastically deformable range is subjected to tension leveling which exceeds the elastic limit of the strip material or corresponds to the elastic limit of the strip material.

[0003] To reduce to a minimum the transverse changes to the trip resulting from stretching in the plastically deformable state to a minimum and to practically completely eliminate the formation of central dishing as well as residual stresses nonuniformly distributed over the strip width, such tension leveling apparatus has between the brake roll set and the traction roll set a tension leveling roll pair so that an additional stretching tension force is superimposed on the strip which effect a stretching in the range of plastic deformation. While the rolls of the brake roll set and the traction roll set bring about a relatively high degree of stretch with the tension leveling roll pair only about 5 to 25% of the tension leveling is produced.

[0004] The object of the invention is to provide a method for the purpose described for as well as a device for carrying out the method and in addition to enable a control of the degree of tension leveling with which the cold rolled strip to be tension leveled is annealed, pickled and optionally stressed, will have improved qualities, especially an enhanced surface quality by elastic and plastic stretching.

[0005] This object is achieved with a method according to the invention in which the strip is subjected between the brake roll set and the tractive roll set to an increased degree of tension leveling by bending under tension in a high traction roll set arranged between the brake roll set and the traction roll set. A preferred features is that the strip is subjected in the high traction roll set to alternate-direction bending. The invention utilizes the fact that with a bending of the strip under a superimposed traction, the resulting degree of tension leveling can be greater and that strip thicknesses of greater than 0.5 mm can be used to produce products of high surface quality, primarily from stainless steel but also from strip of such materials which are characterized by high surface quality, with enhanced planarity and reduction of the intrinsic stress state by tension leveling. The surface fineness and the surface brightness of the tension level metal strip is improved. The method of operating with alternate direction bending in the high traction roll set, which according to the invention produces the major component of the tension leveling, so that the remaining tension leveling is distributed to the braking roll set and the tractive roll set, allows the tension leveling to be further elevated.

[0006] In accordance with a proposal of the invention, the strip is plastically elongated by the superimposition of strip tension and bending at the point at which the strip runs onto the individual roll of the high traction roll set and the point at which the strip runs off the individual rolls of the high traction roll set. In this manner a point symmetrical development of the bending is achieved in the high traction part, especially with thicker strip that cannot be stretched between the roll by pure tension.

[0007] According to a further advantageous feature, the strip is passed through the high traction roll set with a short strain relief length between the respective run-on point and run-off point of the individual rolls. With this short strain relief length by which we means the free unguided length of the strip between two rolls following one another in the strip travel, the strip travel is improved and the tendency of the strip to form longitudinal folds is reduced. The short strain relief length can be achieved, for example, in that the rolls which follow one another of the roll set in the direction in which they loop around the rolls or the strip level have a spacing from one another which is reduced by comparison with the spacing which is usually the case with S-roll arrangements.

[0008] The objects set forth are achieved, in accordance with the invention, in that the high traction roll set provided between the brake roll set and the tension roll set is comprised of at least two, in a preferred embodiment four, direction rolls for generating the strip tension and bending. These high traction rolls integrated in an S-shape in the high traction roll set do not require any bending cassette, by contrast to conventional tension levelers and do not require any adjustment system. They produce simultaneously by superimposition a bending and traction a desired high degree of tension leveling of strip, whereby a high traction roll set having four rolls is unusually effective in alternating bending and a degree of tension leveling in the high traction range which is increased by an order of magnitude.

[0009] An embodiment of the invention provides that the direction rolls of the high traction roll set have a diameter which is different from that of the rolls of the brake set and the traction roll set. By varying the roll diameter, a targeted adjustment of the speed difference can be set to influence the plastification of the strip and thus the degree of tension leveling which is attainable or adjustable. With a high traction roll set with four rolls, either only the two inner tension rolls or all four rolls can have roll diameters deviating from those of the remaining rolls, i.e. those of the brake and tension roll sets. When these high traction rolls have a smaller diameter by comparison with the remaining rolls, it is possible to attain a correspondingly greater resultant degree of tension leveling by bending of the strip with superimposed traction. The limits are defined by the possible detriment to the strip surface. With very sensitive strip surfaces, there is a minimum effect with clearly larger roll diameters, for example of 800 to 1500 mm.

[0010] Finally a control of the degree of stretch is proposed which is characterized in accordance with the invention in that in a high traction roll set arranged between the brake roll set and the tension roll set, the individual degree of tension leveling at the run-on point and the run-off point to the individual high traction results is summed up to a summation tension leveling degree whereby the tension leveling degree externally of the high traction roll set between respectively tension build up and straightening or the straightening and tension dropping roll of the brake and tension roll sets is tapped off and fed back to controlled torque of the high traction rolls. It is thus no longer required to maintain a speed differential between the rolls to have the requisite degree of tension leveling downstream of two rolls, but rather this control approach allows a more sensible distribution of the individual degree of tension leveling to be obtained.

[0011] Further details and advantages of the invention are obtainable from the claims and the following description of embodiments of the invention shown in the drawing. It shows:

[0012]FIG. 1 in a highly schematic side view one embodiment of a tension leveling apparatus with an intermediate high traction part; and

[0013]FIG. 2 a control diagram for regulating the degree of stretch with distribution of individual degrees of stretch.

[0014] An apparatus 1 for the tension leveling of stainless steel strip 2, preferably with a thickness above 0.5 mm is comprised according to FIG. 1 of a brake roll set 3 and in the direction of the strip travel indicated by arrows and following the brake roll set 3, a high traction roll set 5 and a tension roll set 4. The brake roll set 3 is formed with four rolls 6 and the tension roll set 4 with four rolls 7, each of which is arranged pairwise in an S pattern. The high traction set 4 [sic] also has four rolls which also are arranged pairwise in an S pattern and respectively include the inner tension rolls 8 a or 9 a and the respective complementary rolls 8 b or 9 b.

[0015] The upper roll pair 8 a, 8 b and the lower roll pair 9 a, 9 b are with reference to the individual rolls of the pairs mutually and from roll pair to roll pair at the minimum possible distances from one another. A short strain relief lengths 10 is thus provided between the runoff point 11 to the next following roll in the strip travel direction, whereby the strip travel is improved and the formation of longitudinal folds (handkerchief effect) is avoided. Since the strip 2 is subjected in the high traction roll set 5 to alternating bending—in which only one of the roll pairs provided in each case participates in a bending, an increased degree of stretch under tension occurs in the high stress roll set 5 based on the bending of the strip under tension.

[0016] The bending of the strip 2 with superimposed tension results in a degree of stretch which is greater as the diameter of the rolls is smaller. The limit is at the roll diameter which, if made smaller, will disadvantageously have an adverse effect on sensitive strip surfaces, a significantly larger roll diameter, for example 800 to 1500 mm, reducing the influence on the strip surface. As is also determined by the selection of the roll diameter, in every case there is a plastic elongation of the strip 1 by a superimposition of strip tension and bending at the run-on point or run-off point 11, 12 of the rolls 8 a, 8 b or 9 a, 9 b.

[0017] As can be seen from the control diagram of FIG. 2 for the regulation of the degree of stretch of the stretch 2, as in the previously described example, a high traction roll set 5 is provided between the break roll set 30 and the tension roll set 40. The brake and tension roll set 30 or 40 is comprised here each only from one of the roll pairs formed by the roll 6 or 7 whereby however the roll arrangement or the high traction set 5 again has a short destressing length 10 on the one hand and on the other ensures a bending with superimposed tension resulting in a high degree of stretch.

[0018] The illustrated control diagram enables the degree of stretch to be summed up to a total degree of stretch from the opposing influences on the individual degrees of stretch at the run-on and run-off points 11 or 12 of the rolls in the high traction roll set 5. A set point degree of stretch can thus be achieved with an appropriate precontrol and regulation of the individual torques. The degree of stretch outside the high traction roll set 5 is determined between the tension build up and straightening roll or the straightening and tension-reducing rolls of the brake tension roll sets 30 or 40 and the detected degree of stretch is fed back to regulate the torque of the rolls of the high traction roll set. A sensible distribution of the individual degrees of stretch is thereby possible. 

1. A method of leveling cold rolled strip whereby the strip traverses a brake roll set and a tension roll set and between both roll sets in the course of its stretching, is subjected to a stretch tension, characterized in that, the strip is subjected between the brake roll set (3, 30) and the tension roll set (4, 40) to a high traction roll set for increasing the degree of stretch by a bending under tension.
 2. The method according to claim 1, characterized in that, the high traction roll set (5) generates the main part of the stretch tension.
 3. The method according to claim 1 or 2, characterized in that, the strip is subjected in the high traction roll sets (5) to an alternating bending.
 4. The method according to claims 1 to 3, characterized in that, the strip (2) is plastically elongated by superimposition of strip tension and bending at the run-on point or run-off point (12;11), of the strip onto and off the individual rolls (8 a, 8 b; 9 a, 9 b) of the high traction roll set (5).
 5. The method according to claim 4, characterized in that, the strip (2) passes via short destressing lengths (10) between the respective run-off and run-on points (11, 12) of the individual rolls through the high traction roll set (5).
 6. A device for carrying out the method of claim 1 encompassing a brake roll set and a tension roll set, characterized in that, a high traction roll set (5) is provided between the brake roll set and the tension roll set (3, 30; 4, 40) with at least two traction rolls arranged to generate strip tension and bending (8 a, 8 b; 9 a, 9 b).
 7. The device according to claim 6, characterized in that, the high traction roll set (5) has four traction rolls (8 a, 8 b; 9 a, 9 b) to generate strip tension and alternating bending.
 8. The device according to claim 7, characterized in that, the traction rolls of the high traction roll set (5) have another diameter than the rolls (6, 7) of the braking and tension roll sets (3, 30; 4, 40).
 9. The device according to claim 8, characterized in that, at least the inner traction rolls (8 a, 9 a) of the high traction set (5) have a smaller diameter with respect to the rolls of the brake roll set and the tension roll set (3, 30; 4, 40).
 10. The control of the degree of stretch in a method according to claim 1 or with a device according to claim 6 comprising a brake roll set and a tension roll set disposed in a tension leveling apparatus, characterized in that, in a high traction roll set (5) between the brake roll set and the tension roll set (3, 30; 4, 40) the individual degrees of stretch in the run-on and run-off points (11, 12) of the individual high traction rolls are summed up to a total degree of stretch, and the degree of stretch outside the high traction roll set (5) between each of the rolls building up and leveling or leveling and reducing the tension of the brake and tension roll sets (3, 30; 4, 40) is detected and fed back for the torque on the high traction rolls (8 a, 8 b; 9 a, 9 b) of the high traction roll set (5). 